NEMO5 2014 Summer Hands-on session materials
02 Jan 2015 | Downloads
This download resource contains the materials for NEMO5 2014 Summer hands-on sessions. It contains 8 sessions with related presentations, input decks, reference results.
The contents of each session are list below:
Session 1: Simulating UTBs and Nanowires with Quantum Transmitting Boundary Method (QTBM) in NEMO5
Session 2: NEMO5: Hands on session2 RGF and its inputdecks
Session 3: Diffusive leads General lead with constant i*η in the lead
Session 4 (Part I): NEMO5...
Empirical Tight-binding Parameterization of SmSe in the sp3d5f7s* model
26 Mar 2013 | Downloads | Contributor(s): Zhengping Jiang, Marcelo Kuroda, Yaohua Tan, Dennis M. Newns, Michael Povolotskyi, Timothy Boykin, Tillmann Christoph Kubis, Gerhard Klimeck, Glenn J. Martyna
The Empirical Tight Binding(ETB) method is widely used in atomistic device simulations. The reliability of such simulations depends very strongly on the choice of basis sets and the ETB parameters.
The Piezoelectronic Transistor (PET) has been proposed as a post-CMOS device for fast, low-power switching. In this device the piezoresistive channel is metalized via the expansion of a relaxor piezoelectric element. The mixed-valence compound SmSe is a good choice of PET channel material …
Tight Binding Parameters by DFT mapping
12 Sep 2012 | Presentation Materials | Contributor(s): Yaohua Tan, Michael Povolotskyi, Tillmann Christoph Kubis, Yu He, Zhengping Jiang, Timothy Boykin, Gerhard Klimeck
The Empirical Tight Binding(ETB) method is widely used in atomistic device simulations. The reliability of such simulations depends very strongly on the choice of basis sets and the ETB parameters. The traditional way of obtaining the ETB parameters is by fitting to experiment data,or critical theoretical bandedges and symmetries rather than a foundational mapping. A further shortcoming of traditional ETB is the lack of an explicit basis. Alternatively, a DFT mapping process which constructs...
NEMO5 Tutorial 6A: Device Simulation - Transport (Double Gate)
18 Jul 2012 | Online Presentations | Contributor(s): Mehdi Salmani Jelodar, Seung Hyun Park, Zhengping Jiang, Tillmann Christoph Kubis, Michael Povolotskyi, Gerhard Klimeck
Nanoelectronic Modeling Lecture 20: NEGF in a Quasi-1D Formulation
27 Jan 2010 | Online Presentations | Contributor(s): Gerhard Klimeck, Samarth Agarwal, Zhengping Jiang
This lecture will introduce a spatial discretization scheme of the Schrödinger equation which represents a 1D heterostructure like a resonant tunneling diode with spatially varying band edges and effective masses.